The Design of A Novel Sparse Array Using Two Uniform Linear Arrays considering Mutual Coupling

The Design of A Novel Sparse Array Using Two Uniform Linear Arrays considering Mutual Coupling

The sparse arrays using two uniform linear arrays have attracted considerable interest due to the capability of giving analytical expression of sensor location and owning robust direction-of-arrival (DOA) facing strong mutual coupling and sensor failure. In order to achieve the maximum consecutive v...

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Main Authors: Haiyun Xu, Weijia Cui, Fengtong Mei, Bin Ba, Chunxiao Jian
Format: Article
Language:English
Published: Hindawi Limited 2021-01-01
Series:Journal of Sensors
Online Access:http://dx.doi.org/10.1155/2021/9934097
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spelling doaj-2b59d6d46d3641b9ba82f3e3596563a42021-08-30T00:01:18ZengHindawi LimitedJournal of Sensors1687-72682021-01-01202110.1155/2021/9934097The Design of A Novel Sparse Array Using Two Uniform Linear Arrays considering Mutual CouplingHaiyun Xu0Weijia Cui1Fengtong Mei2Bin Ba3Chunxiao Jian4National Digital Switching System Engineering and Technological Research CenterNational Digital Switching System Engineering and Technological Research CenterNational Digital Switching System Engineering and Technological Research CenterNational Digital Switching System Engineering and Technological Research CenterNational Digital Switching System Engineering and Technological Research CenterThe sparse arrays using two uniform linear arrays have attracted considerable interest due to the capability of giving analytical expression of sensor location and owning robust direction-of-arrival (DOA) facing strong mutual coupling and sensor failure. In order to achieve the maximum consecutive virtual uniform linear array in difference coarray, in this paper, a design method of a novel sparse array using two uniform linear arrays (NSA-U2) is proposed. We first analyze the relationship between the values of displacement of two subarrays and difference coarray, and then we give the analytical expressions of the displacement and the number of consecutive lags. By discussing the selection of number of subarray sensors, the design of NSA-U2 is completed. Moreover, through choosing a proper compressed interelement spacing, NSA-U2 can be robust to mutual coupling effect. Numerical experiments prove the effectiveness and favorable performance of DOA estimation with mutual coupling.http://dx.doi.org/10.1155/2021/9934097
collection DOAJ
language English
format Article
sources DOAJ
author Haiyun Xu
Weijia Cui
Fengtong Mei
Bin Ba
Chunxiao Jian
spellingShingle Haiyun Xu
Weijia Cui
Fengtong Mei
Bin Ba
Chunxiao Jian
The Design of A Novel Sparse Array Using Two Uniform Linear Arrays considering Mutual Coupling
Journal of Sensors
author_facet Haiyun Xu
Weijia Cui
Fengtong Mei
Bin Ba
Chunxiao Jian
author_sort Haiyun Xu
title The Design of A Novel Sparse Array Using Two Uniform Linear Arrays considering Mutual Coupling
title_short The Design of A Novel Sparse Array Using Two Uniform Linear Arrays considering Mutual Coupling
title_full The Design of A Novel Sparse Array Using Two Uniform Linear Arrays considering Mutual Coupling
title_fullStr The Design of A Novel Sparse Array Using Two Uniform Linear Arrays considering Mutual Coupling
title_full_unstemmed The Design of A Novel Sparse Array Using Two Uniform Linear Arrays considering Mutual Coupling
title_sort design of a novel sparse array using two uniform linear arrays considering mutual coupling
publisher Hindawi Limited
series Journal of Sensors
issn 1687-7268
publishDate 2021-01-01
description The sparse arrays using two uniform linear arrays have attracted considerable interest due to the capability of giving analytical expression of sensor location and owning robust direction-of-arrival (DOA) facing strong mutual coupling and sensor failure. In order to achieve the maximum consecutive virtual uniform linear array in difference coarray, in this paper, a design method of a novel sparse array using two uniform linear arrays (NSA-U2) is proposed. We first analyze the relationship between the values of displacement of two subarrays and difference coarray, and then we give the analytical expressions of the displacement and the number of consecutive lags. By discussing the selection of number of subarray sensors, the design of NSA-U2 is completed. Moreover, through choosing a proper compressed interelement spacing, NSA-U2 can be robust to mutual coupling effect. Numerical experiments prove the effectiveness and favorable performance of DOA estimation with mutual coupling.
url http://dx.doi.org/10.1155/2021/9934097
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